Press welding machine and method



Jan. 28, 1941. w. AwalGH'rMAN 2,229,993

- ranss vmmme mcanm AND ammo Filed May 19, 19:57 '6 Sheets-Sheet 1 I I INVENTOR. WLZZLam .47. Wezghiman ATTORNEY. I

3m 1941- w. A. WEIGHTMA N PRESS WELDING MACHINE AND METHOD Filed Kay 19, 19:57 6 Sheets-Sheet 2 I INVENTOR. flzlliam fl. Wez'yhlmam ATTORNEY.

1941- w. A. WEIGHTMAN PRESS WELDING MACHINE AND IBTHOD Filed lay 19, 193"! 6 Sheets-Sheet 4 I INVENTOR. Willzamfl. Weighimaw Y ILWA ATTORNEY.

jam-28, 1941. w. A. WEIGHTMAN 2,229,993

I PRESS WELDING MACHINE AND METHOD Filed Bay 19, 1937 6 Sheets-Sheet 5 I I INVENTOR. W Lllzam fl. IVezlghlmaro ATTORNEY.

3m 9 w. A. WEIGHTMAN v 2,229,993

PRESS WELDING MACH IKE AND METHOD Filed May 19, 1937 O1 6 Sheets-Sheet 6 William Weightman/ ATTORNEY.

Patented Jan. 28, 1941 PATENT j OFFICE rnEss wnmmc moms AND mrrnon William A. Welghtman,

Philadelphia, Pa assignor to Edward (EL-Budd Manufacturing Company, Philadelphia, Pa., a corporation of Pennsylvania Application May 19, 1937, Serial No. 143,600

20 Claims.

The present invention relates in generalto the production of sheet metal box section beam or column elements" and in particular to a method for the quantity production of sheet metal box 5 section beamsand to apparatus adapted to the carrying out of such method.

An important object of the invention is to provide a method and apparatus for the quantity production of heavy gauge sheet metal. box

m section beams with a high degree of accuracy of shape and dimension.

Another object is the provision of a method and apparatus for the rapid production in quantity of beams of the above qualifications by spot m welding and with a uniform high degree of strength of the spot welds throughout the length of the beam.

Various other objects and advantages of the invention will become apparent from a perusal 20 of the following speciilcationand the drawings accompanying the same.

In the drawings:

Fig. 1 is a front elevation of my improved machine.

Fig. 1.

Fig. 3 is a vertical the line 3-3 of Fig. l, and Fig. 5.

Fig. '4 is. a fragmentary vertical transverse 30 sectign taken on the line 44 of Fig. 1 and Fig.

Fig. 5 is a longitudinal section taken on the line 5-5 of Fig, 2.

Fig. 6 is a fragmentary longitudinal section taken on the line 6-6 of Fig. 3. Fig. '7 is a fragmentary plan view, partly in section on the line 1-1 of Fig. 3.

Fig. Bis a bottom fragmentary plan view partly in section on the line -l! of Fig. 3.

Fig.- 9 is a fragmentary detail on an enlarged scale taken on the line 3-9 of Fig. 5.

/ Fig. 10 is a top plan view of Fig. 1.

Fig. 11 is a fragmentary detailed section on an enlarged scale through the valve and operating means taken on the line ll--ll of Fig. 10.

Fig. 12 is an enlarged detailed view of 'the Geneva top control for the distributing valve.

Referring to the drawings in detail, the machine comprises the base or bed portion ll hav- 50 ing side columns ll supporting the crown member l2 secured together by suitable die rods [3.

Mounted upon the base member and suitably insulated therefrom is a die or work holder 14 formed in four sections insulated from each Fig. 2 is an end view looking from the right in transverse section taken on other while slidably mounted on the side colis mounted on the ram member I 5 for relative movement with respect thereto through suitable 5 ibs l8 (Fig. 5) and resiliently held in its normal position by means of compression coil springs. l9 and spring adjusting screws 20.

The ram member 15 is arranged to be moved as a whole toward and away from the die member I4 by means of a high speed hydraulic mtor element 2|, the motor being connected with the ram member by means of the piston rod 22 and end clevis 23 connecting with transverse pin 24 fixed to the ram member l through connection with the side walls 25 in the central portion of the ram member. The pin 24 also connects with the central clamp member l6 through an elongated slot 26, the pin 24 normally engaging the upper end of the slot in the raised position of the ram member as shown in Fig. 5, in which position the parts are held under tension of the compression springs 19.

For applying the maximum desired pressure after first the central clamp member and then the end clamp members I! have engaged-the work under pressure exerted by the fast moving motor element 2|, a pairof relatively high power hydraulic motor elements 2] are provided whose piston rods are directly connected with the upper portion of the ram member I5 through suitable flange connections 28.. Operating connection with the opposite ends of the several motor elements is effected through suitable pipe connections 29, 30, 3| "and 32, the separate connec-' 5 'tions of which are controlled by means of control slide valves 33 and 34 (FigJlO). Control of the slide valves 33 and 34 is afl'orded by means of conveniently positioned hand-operated levers 35 and 36' through suitable linka e connecting them? with the valve plungers 31 an 33 respectively as clearly shown in Fig. l0.' The four-way slide Y valves 33 and 34 have their-inlet fluid supply ports connected through pipes 33, and 40 respectively through a supply line 4| to a suitable source of fluid pressure such as a fluid pressure pump '42 driven by an electric motor 43. The pump 42 is of the constant pressure valve dis placement type arranged to supply fluid under constant pressure to the supply line 4| from a suitable sump tank 44 through a pump inlet connection 45. The four-way valves 33 and 34 are provided with exhaust connections 46 and 41 respectively leading through the exhaust line 43 to the sump tank 44.

The valve 33 is so arranged that upon movement oi. the connect rod 49 (Fig. to the left, in the direction-of the arrow 50, the conduit 29 leading to the upper chamber of the hydraulic motor element 2| will be connected through pipe 39 to the supply'line 4! while the conduit 3! leading from the lower end of the v motor 2| will beconnected through the exhaust branch. to the exhaust line 48, and vice versa. Similarly, the valve 34 is arranged so that upon a movement of the connecting rod .52, the branch conduits 30 leading to the upper chambers of the motor elements 21 will be connected to thefluid upply line H while the branch conduits =5! leadlog to the lower chambers of the motors 21 will be connected through the conduit 4! to the exhaust conduit 48. The operation of the valve 34 diflers slightly from that of the valve 33 in that when the connecting rod 52 is moved to leading to the upper chambers of the motors 21 are connected-through branch 4? to exhaust line .48 while the connection of conduit 56 through the valve is closed-so as to leave the lower chambers of motors 21 connected only to their respective surge tanks 5%. In order to permit connection of the surge tank with the top chambers of the motor elements 2! only during downward movement of their pistons, such surge tanks are connected at their bottoms through suitable ports 54 with the said top chambers, which ports 2 are controlled by a mushroom valve 55 normally held in the upper closed position as shown in Fig. 5 by the compression valve spring 58.

The work, which in the present case is a. chassis side member for an automobile in the form of a flanged channel member with a cover strip, is "supported in the ,die or work holder H which is arranged to hold the work fixed against a change coin shape and dimension. This holding of the v beam or chassis member in predetermined form is assured by forming the inside-bearing faces or surfaces of the die or holder/i4 to. the desired outer contour of the channel element which pre- ,4! vious to beingplaced in the-machine is formed with a slight outward flare to its side walls so that when forced into the die or holder M, the side walls will be'sprlmg into the desired shape. While.

the machine may be used in the formation of box 9 section beams of various shapes and from different gauge metal, the present embodiment is particularly adapted to the formationof such beams from relatively heavy gauge material, for example, a gauge of .093 for the channel member and".060 for the cover member. Because the work is forced into the die or work holder under considerabie pressure, it is desirable that means be provided for readily electing the work from the holder after the welding operation is completed 50 and such means are here furnished inthe form of suitable work electors 51 arranged to force their plungers 58 upwardly through the body of the die l4 to eject the work piece 59; The plungers I I are suitably insulated from the end dies through W which they pass by means of insulating bushings as shown. It is not necessary to insulate the tops of theplungers inasmuch as they are in contact with the work only after the welding is completed and during the ejecting of the work.

Q Mounted on either side of the ram member l5 i'or movement therewithis a group of four cylinder blocks Q4 each block containing a multiplicity of electrode operating cylinders arranged in pairs ofinnera'nd outer motor cylinders BI and 6; rel, spectively. The inner work cylinders 6| are ar the right (Fig. 10), the branch conduits 30 "by means of suitable ranged to move upper electrode holders 63 to and away from the work piece, said electrode holders being electrically connected through flexible braid members 64 to a bus bar element 65 common to one of the cylinder blocks '60 for supplying 5 current to all of the electrode holders 63 of that block. The electrode holders 63 each carry an electrode tip 66 for engagement with the upper surface of the work.

The lower electrode tips 61 for engagement with the lower surface of the work are carried by electrode rocker arms 68 pivotally mounted in the brackets 69 mounted on the lower portion of the work holder. Electrical connection from the rocker arms 68 to one terminal Ill of. their associated transformer H is effected through flexible braid connectors 12 and the associated common bus bar 13. Movement is applied to the rocker arms 68 by individual plunger elements 69 operated by the outer work cylinders 62. 'Tocomplete insulation of the electrodes and electrode holders from the walls of the operating cylinders. the piston rods are insulated fromthe framework of such cylinders by suitable insulating bushings as shown, the pistons being insulated by forming them of an insulating material in the nature of a, reinforced phenol condensation product. Inthe case of the outer wo'rk cylinders, 62, the piston rod is air insulated-through the bus bar 65 through which they pass by suitable clearance, thehbus bar in turn being insulated from the cylinder block 60 by suitableintervening insulation as shown in Fig. 3. e rocker arms 68 are insulated from their operating plungers 69 insulating bushings between the plungers 69 and their respective wear pins 14. Electrical connection is eifected between the ,bus bar 65 and the other terminal 15 of its associated transformer H through upper and lower knife switch contacts I 6 and I1 respectively, the lower contacts 11 being mounted on the base of the machine and insulated therefrom while the uppercontacts I6 are carried by the bus bar 65 for movement therewith into and out of \engagement with the lower contacts upon downward and upward movement of the piston block with the ram member l5. Thus by use ofthe separable connection afforded by the switching contacts 16 and the separable motion transmitting means between the rocker arms 68 and their motor cylinders 62 afforded by the plungers 89 and wear pins 14 ample unobstructed clearance is obtained from the work holder to the outer sides of the machine affording ready access to the work holder for loading and unloading of the machines from the sides.

Operating fluid is supplied to the electrode motor elements 61 and 62 through conduits 18, one set of such conduits for two pairs of motor elements SI and 62 situated one pair on each side of the upper clamp'member in a common transverse plane for simultaneous operation of the two pairs of electrode tips in such plane on opposite sides of the work piece Each set of conduits I8 are connected to a common flexible feed conduit 19 of insulating material such as high pressure rubber hose, for the purpose of effecting a flexicasing 84 having a multiplicity of outlet or distributing ports 85 equally spaced about the periphery of the casing 84 and to which ports are connected the conduits 18. Fluid under pressure is supplied to the series of ports 85 by means of the rotary distributing arm 88 carried by the shaft 8|. Fluid connection through the distributing arm 86, shaft 8|, and inlet port 82 in casing 84 is provided by means of a suitable duct 81 in the distributing arm connecting through a central duct 88 in the shaft which in turn connects with the inlet duct 82 in the casing 84. The inlet duct 82 is supplied with fluid under pressure through .a supply pipe 88 connected 4| leading from the outlet port of the pump 42.

The gear box 82' houses a Geneva geararrangement comprising} Geneva pin wheel 88 (Fig. 12) driven by suitable reduction gears 8| from the motor 83 and arranged to effect intermittent stop motion of the shaft 8| through the Geneva, star wheel 82. The distributing valves 88 are thus operated to quickly connect and disconnect the supply pipes 85 leading therefrom, to and from the fluid pressure supply in seriatim, with a predetermined pause between each movement.

Each of the distributing valves is also provided with an exhaust chamber 88 normally open to all the ports 85 except during connection of that port withthe pressure fluid supply by the dis-- tributing arm 88, so that when fluid pressure is removed from each of the motor elements 8| and 52 due to movement of the distributing arm beyond its corresponding'port in the distributing valve, the operating piston will be forced back into the cylinder by its associated return spring 84 displacing the fluid from the cylinder back through the conduits 18 and 18 and port 85 of the distributing valve into the exhaust chamber 88 and thence out through the exhaust conduit 85 to the exhaust line 48 into sump tank 44.

For controlling the supply of power to the primary of the transformer in proper timed relation to the intermittent motion of the distributing valves 88 and consequently in timed relation to the mechanical operation of the electrodes as well as for proper timing of the welding cycle, a-control switch 86 is provided. This switch is mounted on the gear casing 82' and provided with an actuating arm 81 arranged to r be engaged by a cam 88 carried by the shaft 88 of the Geneva pin wheel 88 for closing and opening the power supply circuit within the period of. time covered by the pauses intermediate the intermittent movements of the distributing valve. Such switch 88 may effect such control either directly orthrough the intermediation of a suitable circuit timing mechamm.

In operation, assuming the several parts to be in the normal position as shown in Fig. 5, with the ram member l5 in the raised position, the work 58 which in the persent instance-is the channel member of a box section beam shaped to form the side member of an automobile chassis, is placed in the die or work holder l4 in the position shown. Because of the outward flare of the channel member, as previously described, and other deviationsfrom the desired shape, it does not drop into nesting engagement with the work holder but is held near the top with the supply line porarily secured at its central portion to the central pressure clamp i6 by means'of the spring pins I82 rigidly fastened to the clamp member 18 and arranged to pass through suitable holes in the cover plate Hllv and hold the same thereon in friction engagement therewith in any known or other suitable manner, to hold the cover element |8l in the position shown in dotted lines. The cover strip being thus positioned above the channel member and in line-therewith, one of the operating levers 35 (Fig. 10) is pulled downwardly to pull the rod 48 to the left which in turn moves the plunger 81 of valve 33 into, position to connect the fluid pressure supply line 4| through conduit 38 and valve 83 to conduit 28 leading to the upper chamber of the motor element 2|. Operating fluid under pressure, now entering the upper chamber of the motor element 2|, forces the piston rod 22 and with it the ram member l5 downwardly toward the work piece carrying the cover element I 8| down onto the work piece 58, whereupon, the central pressure clamp l6 first comes into play clamping the cover strip against the work piece after which the ram member l5 continuing its downward movement, pushing the cover plate and work piece down into the work holding die thereby conforming the work to dimensions and clamping the center portion of the coverplate to' the top of the work piece. The continued downward movement of the ram I5 then firings the end holding clamps I1 into clamping engagement with th cover strip. At the same time, compression springs l8 exert and maintain additional pressure on the central portion of the cover element and work piece. During downward movement of the ram member l5 by the high speed motor element 2|, such movement is rendered free of retardation by the high power cylinders 21 by means of the valve controlled connection between the bottom of surge tank 53 and the top chamber of cylinder 21, and the exhaust connection with the lower chamber through the conduit 32, the mushroom valve 55 opening under the force of low suction created in the upper chamber of the motor element 21 permitting fluid to flow from the surge tank 53 into the upper chamber through the 'valve ports 54. To exert the flnal maximum pressure on the cover strip against the work piece, the operating lever-36is pulled down, pulling connecting rod 52 to the left which, in turn,

rection toadmit fluid from the pressure line 4! through the' valve 34 and conduits 38 to the upper end of motors 21, thus admitting pressureto the upper chambers therein. The pressurethus created in the upper chamber of the motor element 21 seats the mushroom valve 58 upwardly against the ports 54 closing the connection between the upper chamber and the surge tank, and applies the maximum pressure on the work against the work holder.

The work being thus clamped in proper position for welding, the motor 83 is started, starting operation of the distributor valve 88 from a given normal position in advance of the first outlet distributing port 85 to which is connected the conduit 18 leading to the first transverse set of motor elements in each piston block 88. The distributor valves then proceed automatically to effect operation of the motor elements of the various cylinder blocks 88 in seriatim causing the respective electrode tips to engage the work moves the valve plunger 38 of valve 34 in a di-' the proper shape and piece for the production of the spot weld between I 4- the outer marginal edges of the cover strip and the flanges of the channel element. Due to the intermittent movement of the distributor valve, the proper working pressure is rapidly built up and maintained uniform during the weld interval. Thus eight welds are made simultaneously each supplied by the transformer II of its group of which there are four, one for each cylinder block 60. Thus the full power of each transformer is supplied to one pair of upper and lower electrode points during their welding cycle. After the welding current is cut off, thevalve f effects a quick release" of the group of electrodes just operated and a quick operation of the next succeeding group. After the'distributing valve has completed its cycle of movements and returned to the normal zero position, the motor 83 is stopped after which both operating levers. 35 and 36 are moved upwardly. Upward movement of both the operating levers moves the connecting rods and 52 to the right which,,in turn, operates the valves 33 and 34 to reverse the connections of the supply line and exhaust line with the rapid traverse motor element 2|, at the same time switching the connection of conduits from the supply line. Pressure fluid' now entering the lower chamber of the motor. element 2| forces the piston upwardly carrying with it the piston rod 22 and ram member I! into the uppermost position as shown in Fig. 5. During upward movement of the ram member, exhaust fluid passes out of the upper chamber of the work cylinder 2| to the sump tank 44 by way of conduit 29, valve 33 and conduits 46 and 48. This upward movement of the ram memher is relieved of retardation by cylinders 27 by virtue of the fact that their upper chambers are in free communication with the sump tank 44 through conduits 3H, valve 34 and conduits 41 and 48. Upward movement of the ram memher carrying with it the plunger head 69 and knife switch element 16 leaves ample clearance said moving means.

from the center of the machine to both sides for ready removal of the finished work-piece... The work piece is now ejected from the work holder by operation of'ejectors 5] which push their plungers 58up through the end sections of the work holders to eject the workpiear thereof. The work is now removed from the side of the machine after which the operation above described may be repeated on another work piece,

While I have shown and described a preferred embodiment of my invention for the sake of disclosure, it is to be understood that it is not limited .to such specific embodiment but contemplates all such variations and modifications thereof as fall fairly within the scope of the appended claims.

What 'I claim is:

l. Ina welding machine, a work holder, a pair of opposing complementary spot welding electrodes. arranged to engage at opposite sides a portion of a work piece held by said holder, means situated on one of said sides of the work piece for moving said electrodes into clamping engagement with the work piece independently of each other in opposite directions and under substantially equal clamping pressure, and separable motion-transmittlng means connecting said moving means with the electrode on the side of the work piece opposite said moving means, separable to permit separation of electrodes beyond theirlimit of movement by 'a work holder ar ports and operable in electrode sure applying means with said lower ranged to receive and hold a channel section beam, means for applying a cover strip to the beam under pressure flrst near the center of the.

beam andi'then from the eenter to the ends, and

means for spot welding thez cover strip to the beam 5 tion, a, movable head memberarranged to move 10 toward and away from said work holder, a middle clamping member carried by said head for movement into clamping enga ment with the middle portion of a cover strip 1 id upon the open side of a flanged channel I holder, end clamping members carried by said head for movement into clamping engagement with the end portions of the said cover strip, and a pair of welding electrodes arranged to be moved into operative relation with the beam and a portion of the cover strip overlapping the flange forfwelding the two together. 4. Ina welding machine, a work bed, a work support, a movable head member arranged to move toward and away from a piece of work 25 supported by said work support, a clamping member carried by said head for movement into clamping engagement with a work piece supported by said work support, a weldingelectrode supported'wholly by said head arranged for en- 30 gagement with the work piece on the side toward the head, a second welding electrode ,supported independently of the head and arranged for engagement with the work piece on the side beam-held in the work 15 a flange on 20 toward the work bed, a source of welding current supply arranged in close proximity to the said second electrode, and "a pair of switching contacts carried, one by said head and one by said work bed for connecting the flrst mentioned electrode with the said source.

5. In a'hydromatic welding machine, a plurality of weldingelectrodes and hydraulic motors therefor, a distributing valve having distributing difier'ent positions to open and close a distributing port connecting asource of working fluid to different said motors, means for intermittently moving said valve from one position to another to quickly connect and discon nectv a source of working different motors, a'source of current, means controlling the connection of said source with said electrodes, and

trol means intermediate-the intermittent movement ofsaid distributing valve.

6. In a press welding machine, a work bed, a

work holder. mounted on said work bed, a super- 1 structurecomprising a crown member mounted bed and supports for the crown above said work the crown and work bed and extending between means, for actuating said. confluid to and-from said situated at op'posite ends of the work bed leaving a loading and unloading clearance across the .work bed from side to side of the machine between the crown and work bed, a ram member supported on' part of said superstructure for movementtoward'andaway from the. work bed across sai clearance, an upper welding electrode carried b aid ram for movement toward and away from izhe work piece, a lower welding elecde mounted on. said work bed below said clear;

ance space; pressure applyingmeans for each 70 proximity to we lowerelectrode, a short en. is

ed by said ram, separable motion.

- the work holder, electrode oper manent electrical connection extending from one terminal of the transformer to the lower electrode, a switch element mounted on the work bed connected to and in close proximity to the other terminal of the transformer below said clearance, and a second switch element in close proximity to and electrically connected by said ram for movement therewith into and out of circuit connecting relation with said first mentioned switching element across saidv clearance.

7. In a welding machine, a work holder, a movable member mounted above the work holder for movement toward and away from said work holder, an upper electrode carried by said movable member, means carried by said movable member for moving said electrode relative to said movable member, a lower electrode carried by said work holder arranged for mov ent relative to ting means for said lower electrode carried by said movable member, and means carried by said movable member for transmitting motion from said electrode operating means to said lower electrode.

8. In a welding machine, a plurality of electrodes and hydraulic motors t erefor, a distributing valve having distributing ports and operable in different positions to open and close a distributing portconnecting a source of working fluid to diiferent said motors, means for rapidly moving said valve from one position to another to quickly connect and disconnect the source of working fluid to and from different motors with a predetermined pause between each movement, a power supply circuit for the electrodes, and means for closing and opening said circuit within the period of time covered by said pauses.

9. In a welding machine, a work holder having side and flange engaging members arranged to engage the sides and flanges of an outwardly flanged channel section beam, a top clamping platen movable for clamping a cover strip over the face of the channel section beam against' the flanges of the beam, an electrode support movable with the top clamping platen, spot welding electrodes mounted on said support for movement through openings in said top platen into and out of operative engagement with the cover strip at points opposite the beam flange, other spot weldin electrodes mounted on said work holder for movement through openings in said side and flange engaging members into and out of operative engagement with the beam flanges at points opposite the points of engagement of said first mentioned electrodes, separable motion-transmitting means carried partly by the electrode support and partly by the work holder for transmitting movement to said other electrodes and motor means carried by said electrode support for moving both said first mentioned electrodes and the part of saidseparable means carried by said electrode support.

10."I'he method of spot welding a flat strip cover sheet onto the open flanged side of a flanged channel beam which comprises holding the beam against change of form and position, laying the cover sheet upon the flanges of the channel beam along the beam and across the open side of .the'

channel, clamping the cover plate to the beam first at'the middle portion and then at the two end'portions, and spot weldingthe side marginal edges of the cover sheet to the flanges while 'so clamped.

11. The method of spot welding a cover plate onto the open side of a channel beam having laterally outwardly extending flanges .along the clamping the cover plate at its middle portion.

and then at its end portions to the open side of the channel beam with the marginal side edges of the cover plate overlapping the flanges of the beam, and spot welding the marginal side edges of the cover plate to the flanges of the beam while so clamped. 12. In a welding machine, a work holder arranged to receive and hold a channel section beam, means for applying a cover strip to the beam under pressure first over one considerable portion thereof and then over the remaining portion, and means for spotwelding the cover strip to the beam from end to end. 13. In a'welding machine, a plurality of welding units each having a reciprocable welding electrode and means for reciprocating the electrode,

a distributor body having connections respectively to said means, means for supplying motive energy to said body, and a single movable member governing communication between said body r and said connections and adapted to travel over said connections successively to operate said units sequentially to place the respective electrodes under pressure against the work, and means for. actuating said movable member intermittently, v with a dwell at V the unit-operating position thereof.

14. In a welding machine, a plurality of welding units each having a cylinder and a piston and a welding electrode operated by fluid pressure inthe cylinder, a distributor. body having fluid connections to said cylinders respectively, means supplying pressure fluid to said body, a single movable valve member governing communication between said body and said connections andadapted to travel over said connections successively to operate said units sequentially to place the respective electrodes under pressure against the work, and means for actuating said movable member intermittently, with a dwell at the unitoperating position thereof.

15. In a welding machine, a plurality of welding units each having a reciprocable welding electrode and means for reciprocating the electrode, a distributor body having connections respectively to said means, means for supplying motive energy to said body, and a single rotatable member governing communication between said body and said connections and adapted to travel over said connections successively to operate said units sequentially to place the respective electrodes under pressure against the work, and means for actuating said rotatable member intermittently, with a dwell at the unit-operating position thereof.

16. In a welding machine, a plurality of welding units each having a cylinder and a piston and a welding electrode operated by fluid pressure in the cylinder, a distributor body having fluid connections to said cylinders respectively, means supplyingv pressure fluid to said body, a

single rotatable valve member governing commovement, a power supply circuit for the. electrodes, and means for closing and opening said and close a distributing port connecting a source of working fluid to different said motors, means for intermittently moving said valve from one position to another to quickly connect and disconnect a source of working fluid to and from said diflerent motors, asource of current, means controlling the connection of said source with said electrodes, and means for actuating said control means intermediate the intermittent movee r'nent 01' said distributing valves 18. In a welding machine, a plurality oielectrodes and fluid pressure motors therefor, a distributing valve having distributing ports and operable in diflerent positions to open and close a distributing port connecting a source of working fluid to diflerent said motors, means for rapidly moving said valve from one position to another to quickly connect and disconnect the source of working fluid to and from different motors with a predetermined pause between each circuit within the period 01 time covered by said pauses. I

19, Ina welding machine, a plurality of electrodes and'fluid pressure motors therefor, a distributing. valvular means having distributing ports and operable in diiierent positions to open and close a distributing port connecting a source of working fluid to diiierent said motors, means (or rapidly moving said valvular means from one position'to another to quickly connect and dis- 5 connect the source of working fluid to and from; difierent motors with a predetermined pause between each movement. a power supply circuit for v the electrodes. and means for closing and opening said circuit within the period of time covered 1 by said pauses.

20. ha welding machine, a plurality of electrodes and fluid pressure motors therefor, valving means for distributing fluid pressure to said motors in succession to successively press the 15 iuli pressure in said motor for a dwell period and ior thence quickly releasing saidpressure, means I for applying welding current successively to the electrodes for determinate periods 0! time within 25 the dwell period. 

